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Cognition
AP Psychology:
Learning Targets:
AP students in psychology should be able to do the following:
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Compare and contrast various cognitive processes:
— effortful versus automatic processing;
— deep versus shallow processing;
— focused versus divided attention.
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Describe and differentiate psychological and physiological systems of memory
(e.g., short-term memory, procedural memory).
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Outline the principles that underlie effective encoding, storage, and construction
of memories.
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Describe strategies for memory improvement.
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Synthesize how biological, cognitive, and cultural factors converge to facilitate
acquisition, development, and use of language.
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Identify problem-solving strategies as well as factors that influence their
effectiveness.
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List the characteristics of creative thought and creative thinkers.
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Identify key contributors in cognitive psychology (e.g., Noam Chomsky,
Hermann Ebbinghaus, Wolfgang Köhler, Elizabeth Loftus, George A. Miller).
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Lesson One / Two: Models of
Memory
1. Compare and contrast various cognitive
processes:
— effortful versus automatic processing;
— deep versus shallow processing;
— focused versus divided attention.
 2. Describe and differentiate psychological and
physiological systems of memory (e.g., short-term
memory, procedural memory).
 3. Outline the principles that underlie effective
encoding, storage, and construction of memories.
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Lesson Introduction: Activity
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What you will need for this activity :Scrap
paper and pen/pencil
Directions: On the next slide there is a ten
word list. Your task is to try to memorize as
many of the words and their definitions in the
next minute. After the minute is up, you will
need to write down as many of the words as
possible and their meanings. Do NOT take
any notes during the one minute time period.
Word List:
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1. abatjour - skylight or device to direct light into a
room
2. balneary – bath
3. gambado - bound or spring of a horse; fantastic
movement
4. madapollam - fine cotton cloth
5. xiphias - swordfish
6. taeniacide - killing of tapeworms
7. ocracy – government
8. ignify – to burn
9. nemorous – wooded
10. hawkshaw - detective
Discussion:
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1. How many words and definitions did you
remember?
2. What strategies did you use to remember
the words and definitions?
3. How would your strategy(s) have been
different if you would have had more time?
4. Do you think you’ll remember any of these
words or definitions later today?
Introduction:
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“In order to profit from what you learn, you
need to remember it.”
Memory – your capacity to register, store,
and recover information over time.
Cognition – all the mental activities
associated with thinking, knowing, and
remembering information
Models of Memory: #1
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How do we explain how
memories are consolidated?
Information Processing
Model – Our mind is like a
computer.
1. Encode – take in information
(neural impulses)
2. Store – from a moment 
lifetime
3. Retrieval – how easy is it to
“open” up the memory that we
want
Filter Theory – (Donald
Broadbent) – unimportant
information is dropped, and
important information is
encoded into the next stage
Memory System Processes
Encoding
The process of
transferring
information from
one memory
stage to the next
Storage
The process of
maintaining
information in a
particular
stage
Retrieval
The process of
bringing stored
information from
long-term
memory to the
conscious level
in short-term
memory
Levels of Processing: #2
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Levels of Processing
Model (Craik and Lockhart)
– How long and how well
we remember information
depends on how deeply we
process the information
when it is encoded.
Shallow processing – We
pay attention to physical
characteristics that are
highest in priority (crossing
the street while driving), we
don’t pay attention to the
small things.
Types of Encoding:
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Semantic Encoding –
emphasizes the meaning of
verbal input
Deep Processing – occurs
when we attach meaning to
information and create
associations between the
new memory and existing
memories. (elaboration)
Self-referent encoding One of the best ways to
facilitate later recall is to
relate the new information
to ourselves
Three Stage Model: #3
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Atkinson-Shiffrin Three
Stage Model of Memory – 3
different memory systems
characterized by time frames
(Sensory, STM and LTM)
Sensory Memory – information
from external events is held
just long enough to be
perceived
Iconic Memory – an exact copy
of visual information
Echoic Memory – auditory
memory that lasts for about 4
seconds (long enough for us to
hear the flow of information)
Other Terms:
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Click the Pic for Brain
Games!
Most of our sensory memory is
lost
Selective Attention – focus of
awareness on a specific
stimulus (small % of
information is actually
encoded)
Automatic Processing –
unconscious encoding that
happens (think social learning)
Parallel Processing – many
things can be encoded at the
same time
Effortful Processing –
encoding that requires our
attention and conscious effort
What do you remember
activity:
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The following activity is designed to get you
thinking about how your brain decides to
remember things.
Let’s see what happens!
Lesson Two Objectives:
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By the end of this lesson, I will be able to:
1. Describe and differentiate psychological
and physiological systems of memory (e.g.,
short-term memory, procedural memory).
BUT FIRST – Let’s go over the activity from
yesterday
The three stages of the AtkinsonShiffrin process of memory are:
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Iconic, sensory, and
procedural
Sensory, short term, and
long term
Shallow, medium, and deep
processing
Semantic, episodic, and
procedural
Cerebellum, temporal lobe,
and hippocampus
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According to the levels of
processing theory of memory:
We remember items that are
repeated once or twice
Sporadic rehearsal will encode
items into our long-term
memory
Deep processing involves
elaborative rehearsal, ensuring
encoding into long-term
memory
We can only hold 7 items in
our short term memory before
it’s full
Input, output, and storage are
the three levels
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Discussion Starter: Turn and
talk
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1. What are some ways that seem to work for
you when trying to memorize information?
2. Did some one teach this to you or did you
learn it on your own?
3. Is it the school’s responsibility to teach you
how to “remember” information?
Short Term Memory:
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Short Term Memory – can
hold a limited amount of
information for about 30
seconds unless it is processed
further.
George Miller – we can
process 7 unrelated “bits” of
information at one time (phone
#’s)
We can hold memories longer
if we rehearse the new
information over and over
again
So….The more time we spend
learning new information, the
more we retain it. (even after
we’ve learned it)
STM: Cont
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Additional rehearsal after
learning is called
overlearning.
Chunking – placing information
into meaningful units helps us
to remember (the date)
Baddeley’s Working Memory
Model – Visual memory briefly
stores visual and spatial
information from sensory
memory.
Imagery – Mental pictures
This allows us to do more than
one thing at a time.
Example: Working out (talking
while exercising)
Long Term Memory:
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Long Term Memory – relatively permanent and practically
unlimited capacity memory system into which information from
short-term memory may pass. (2 levels)
Level 1 – Explicit/declarative memory – our LTM of facts and
experiences we consciously know and can verbalize.
Subdivision 1– Semantic memory – facts and general knowledge
Subdivision 2 – Episodic memory – personally experienced
events
Level 2 – Implicit memory – our LTM for skills and procedures to
do things
Subdivision – Procedural memory – motor and cognitive skills
(how we think and move) – we do these without thinking (tying
shoes)
Your Thoughts:
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What is your overall reaction to this video
clip?
Your Thoughts:
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What is your overall reaction to this video
clip?
BBC: Memory Link
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http://www.bbc.co.uk/sn/tvradio/programmes/
horizon/broadband/tx/memory/
Types of Long-Term Memory
Lesson Three: Organization of
Memories
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By the end of this lesson, I will be able to:
Outline the principles that underlie effective
encoding, storage, and construction of
memories.
How is information in long-term
memory organized? – Model #1
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Four Models: Hierarchies,
Semantic networks,
schemas, and
connectionists networks.
1. Hierarchies – systems in
which concepts are
arranged from more general
to more specific
Concepts – mental
representations of related
things (objects, events, etc.
Prototypes – typical
examples of the concept
(robin = bird)
Model #2 – Semantic Networks
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Semantic Networks –
more irregular and distorted
systems with multiple links
from one concept to
another.
Example – a bird is like a fly
(wings), they both have
vertebrae (like humans) and
on and on…..
We build “mental maps” that
organize and connect
concepts to let up process
complex experiences.
Model #3 - Schemas
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Schemas – help us to
integrate and adapt
new experiences/info to
old experiences/info
A script is a schema for
an event (elementary
school)
Model #4 - Connectionism
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Connectionism – memory
is stored throughout the
brain in connections
between neurons
Neurons work together to
process a single memory
Artificial intelligence designs
have used this idea to
create more lifelike
simulations and games.
(they can learn and adapt to
new situations)
Lesson Four: Biology of Long Term
Memory and Retrieving Memory:
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By the end of this lesson, I will be able to:
1. Outline the principles that underlie effective
encoding, storage, and construction of
memories.
2. Describe strategies for memory
improvement.
3. Synthesize how biological, cognitive, and
cultural factors converge to facilitate
acquisition, development, and use of
language.
Biology of Long-Term Memory:
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Learning new information
involves strengthening of
neural connections at the
synapses
Long term potentiation –
involves an increase in the
efficiency with which signals
are sent across the synapse
within neural networks of
long term memories.
Over time, this requires
your brain to use much less
“processing power” in order
to remember something.
Flashbulb Memory:
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Flashbulb memory – a
vivid memory of an
emotionally arousing event
(9/11)
During these moments the
adrenal hormones trigger a
release of energy for neural
processes (this also gets
your amygdala (storage of
emotional memories) and
hippocampus involved)
This is why you will
remember these events
more clearly than others
More About the Brain:
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Hippocampus and Left
Frontal Lobe – especially
active in encoding new
information into memory
Right frontal lobe – more
active when we retrieve
information
Cerebellum – helps to store
procedural memories (skills)
and classically conditioned
memories
Regions of the Brain and
Memory:
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Click the pic!
Thalamus – helps to encode
short term memories
Hippocampus – involved in
putting information from STM
to LTM
Destruction of the
hippocampus = anterograde
amnesia - the inability to put
new information into LTM
Retrograde amnesia –
memory loss for a segment of
the past (blow to the head) –
could result from Long term
potentiation process being
disturbed
Reactions: Turn and Talk (2
minutes)
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What did you think about the video?
Should there be an age limit
on contact sports?
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Yes
No
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Do you think the amount of padding that players use is
increasing the amount of contact in sports?
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Yes
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Should the NFL, NHL, etc. be responsible for the
mental health of it’s players after they’ve retired
from the sport?
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Lesson 4: Objective
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By the end of this lesson, I will be able to:
1. Describe strategies for memory
improvement
Retrieving Memories:
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Retrieval – the process
of getting information
out of memory storage
Recognition – m/c
questions
Recall – essay
When we need to
remember something
we often aim to
reconstruct the idea in
our mind
Retrieval:
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When remembering a list of
words, we tend to
remember the first and last
words best – serial
position effect
Example: Presidents of
USA
Primacy effect–
remembering the first words
Recency effect –
remembering he last words
So, What Helps us Remember?
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Retrieval Cues –
Reminders associated with
information we our trying to
get out of memory.
Priming – hints (the
NNNNNAAAAA……ZI’S!)
Studying Hints–
short sessions with rest –
Distributed Practice
Long sessions – Massed
Practice (cramming)
DP works better
More Retrieval Help:
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Mnemonic Devices – ROY
G. BIV, My Very Educated
Mother Just Served Us
Nine Pies
Method of Loci – use
associations of words on a
list with visualization of
places on a familiar path
(chicken, corn, bread)
Chicken pecking at the door
because it wants some corn
that is out in the field, but all
we have is some old bread
that is in the garage.
What Affects Retrieval?
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Our recall is best when we
recall information in the same
setting in which we encoded it
(the environment becomes part
of the memory) – context
dependent memory
Example – taking a test in the
same room that you learned
the information (AP REVIEW?)
Mood may also play a factor –
Mood congruence
State- dependent – drunk
person remembers where they
left something when their
drunk instead of sober.
Why do we forget?
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1. Failure to encode
2. Decay of stored
memories
3. Inability to access
stored memories
4. Motivated forgetting
#1: Failure to Encode
Information:
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Encoding failure
results from sensory
information never
entering LTM because
we did not pay attention
to them.
Example:
1. What is on the front
of a dollar bill?
2. What is on the back
of a dollar bill?
#2: Decay of Stored Memories:
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Decay of stored memories
happen as a result of a
gradual fading of physical
memory
Example: Foreign language
– if you don’t use it, you
lose it!
Relearning – we should
learn the same information
quicker than before (AP
Review)
If relearning the same
information takes as much
time as before – our
memory has decayed.
#3: Inability to access
information from LTM:
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Inability to access
information from our LTM
happens because of:
1. Insufficient retrieval cues
2. Interference – learning
similar items may prevent
retrieving others
Tip of the tongue
phenomenon – we know
that we know something,
but can’t pull it out of our
memory
Two Types of Interference:
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Proactive – something
we learned earlier
disrupts the recall of
something we
experience later (taught
incorrectly)
Retroactive – new
learning effects the
recall of older
information (new phone
#s)
Interference Application:
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Confabulation – we fill in
the missing details with
what we want to remember
(accident scene – if we
were the cause)
Misinformation effect –
occurs when we incorporate
misleading information into
our memory of an event
(fight in school – rumors)
This is also called
misattribution error (line up
– weapon focus)
So.. What Have We Learned?
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1. Over learning – keep practicing
2. Relate material to ourselves
3. Mnemonic devices
4. Minimize interference
5. Space out study sessions
6. Frequent testing of knowledge
Question: Of all of these, which do you think
you will use the most?
Lesson Five – Language
Acquisition
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By the end of this
lesson, I will be able
to:
1. Synthesize how
biological, cognitive,
and cultural factors
converge to facilitate
acquisition,
development, and
use of language.
How was your snow day?
Great
Good
Average
Not good
Bad
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Why are we talking about
language acquisition?
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In order to speak a
language, one must
have a basic memory of
sounds, words, and the
context in which to use
those words.
Language – a flexible
system of spoken,
written, or signed
symbols that enable us
to communicate our
thoughts and feelings.
Theories of Language
Acquisition:
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Language is learned
through social learning
Nativists – argue that we
are born with a biological
predisposition for language
(Noam Chomsky)
Behaviorists – argue that
we develop language by
imitating sounds we hear to
create words (B.F. Skinner)
Noam Chomsky:
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Chomsky – our brains
are prewired for a
universal grammar of
nouns, verbs, subjects,
objects, and questions.
He developed the idea
of a LAD – “language
acquisition device” –
in which grammar
“switches” turn on as
children are exposed to
language.
Chomsky Strikes Again!
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Chomsky also believes
in a critical period for
language development.
He believes that if
children are not
exposed to language
before adolescence,
they will be unable or
find it extremely difficult
to acquire language
(Genie)
The Other Side: Skinner
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B.F. Skinner felt that
children learn language by
association, reinforcement,
and imitation.
Parents shape their children
to speak – encouraging
them to make sense of the
babbling and “broken”
speech
Children are encouraged to
speak because they are
praised for it and soon
realize they can better
interact with their
environments.
So.. Who’s Right?
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Guess what? – it’s a
combination of both!
We are biologically
prepared but also acquire
language through social
learning
Cognitive neuroscientists
agree that children must
establish the neural
connections for language
during the first few years of
life
Unlike B.F. Skinner, Noam
Chomsky believes that children:
Learn to speak by
mimicking the sounds
around them
Speak more quickly if their
parents correct their
mispronunciations early
Are hard-wired for language
acquisition
Learn language more
quickly is positive rewards
are given to them
Can learn to speak correctly
only during a critical age
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Building Blocks:
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Phonemes – language’s
basic sound units
Morphemes – the smallest
meaningful units of speech
(prefixes, simple words,
suffixes, etc.)
Most morphemes are a
combination of phonemes
FARM – three phonemes (f
– ar –m) , one morpheme
(farm)
Combination Rules:
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Click the PIC!!
Grammar – each language
has a system of rules that
determine how sounds and
words can be combined and
used to communicate
meaning.
Syntax – the set of rules
that regulate the order in
which words can be
combined into sentences
“Yellow Balloon Big”
Combination Rules: Cont.
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Semantics – set of rules
that help us to derive
meaning from morphemes,
words, and sentences.
Sentences have:
1. Surface structure –
particular words or phrases
2. Deep structure –
underlying meaning (think
politicians)
Example: “Helping the
people in Darfur should be
a priority for developed
nations.”
Phonemes are:
:25
The rules of grammar that
dictate letter combinations
in language
The smallest unit of sound
in a language
The smallest unit of
meaning in a language
Semantically the same as
morphemes
About 100 different words
that are common to all
languages
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Language Acquisition Stages:
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The following are the series of
stages we all go through when
trying to communicate:
1. Babbling – production of
phonemes (sounds)
2. Holophrase (1st b-day) –
one word conveys meaning
(Go!)
3. Telegraphic speech (age
2-3) – the use of one verb and
one noun – “eat cookie”
Overgeneralization – child
applies grammar rules without
making appropriate exceptions
(I goed to the store)
Which of the following 20%
is a holophrase
one
20% 20% 20%
20%
year old Amanda is likely to say?
25
“Mmmmm”
“Gaga”
“Eat apple”
“I eated the cookie”
“Bottle”
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Lesson Six: Thinking
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By the end of this
lesson, I will be able
to:
1. Identify problemsolving strategies as
well as factors that
influence their
effectiveness.
Class Activity: Height Line

As a class, you must organize yourselves in
order of height from tallest to shortest. The
catch: You need to do this with your eyes
closed! Good luck!
Thinking: An Introduction
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Why is it that some
people figure out a
problem quicker than
others?
It may be that they use
previous or new
problem solving
strategies
Thinking – Affects our
language, which in turn
affects our thoughts.
Benjamin Whorf:
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B.W. – Language guides
and determines our thinking
Different languages cause
people to view the world
differently
People who speak more
than one language report a
different sense of
themselves depending on
the language they are
speaking at the time
Criticism – language isn’t
the only thing that affects
us, the environment also
plays a large role
Metacognition:
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Metacognition –
thinking about how you
think
This helps you reason
through things in order
to solve a problem.
Dunker’s candle box
example (1945)
So….how do we solve
problems?
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Most problem solving
includes a series of
steps
Algorithm – Slow, step
by step procedure that
guarantees a solution
to many types of
problems
Heuristics – Mental
shortcuts (I before E,
except after C)
Solving Problems:
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Insight – Solution to a
problem suddenly
comes to us
(NEBOTYA)
Trial and error
approach – see what
works and what doesn’t
(this works best when
our choices are limited)
Types of Reasoning:
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Inductive – Reasoning
from specific  general
(HS kids at RHS  All
HS kids)
Deductive –
Reasoning from
general  specific
(much more logical)
Deductive reasoning is
based on widely known
assumptions and rules
Lesson Six: Continued
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By the end of this lesson, I
will be able to:
1. Identify problem-solving
strategies as well as factors
that influence their
effectiveness.
Obstacles to problem solving:
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What can hinder our ability
to solve a problem?
Fixation – Inability to look
at a problem from a fresh
perspective
We might be using a prior
strategy that didn’t work
Functional fixedness –
failure to use an object in an
unusual way (picnic
example)
Why do we make illogical
choices? (Tversky/Kahnmen)
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Normative studies –
ask how we ought to
make decisions
Descriptive studies –
look at how decisions
are actually made
Under conditions of
uncertainty, we often
make strange decisions
based on intuition (our
gut)
When we are uncertain we
use…
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Availability heuristic –
estimate the probability of
certain events in terms of
how readily they come to
mind
Example – safety of car vs.
airplane
Representative heuristic –
mental shortcut by which a
new situation is judged by
how well it matches a
stereotypical model or
prototype
Example: I love math 
math professor (this can’t
work for everyone)
Framing and Advertising:
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Framing – refers to the way
a problem is posed (choose
your words wisely)
Example – 90% fat free vs
10% fat (which are you
more likely to buy?
Example – how many miles
long is the Mississippi
River?
A. 150
B. 175
C. 250
D. 2500
E. 5000
The fallibility of eyewitness
accounts:
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Your Thoughts
1. Why do you think that people have such a
hard time identifying witnesses / crimes
effectively?
2. Is there a better way to ID criminals
instead of a line up?
3. What do you think about the fact that over
250 “criminals” have been released from jail
because DNA testing shows that they didn’t
commit the crime?
Lesson Seven: Objectives
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By the end of this
lesson, I will be able
to:
1. Identify problemsolving strategies as
well as factors that
influence their
effectiveness.
2. List the
characteristics of
creative thought and
creative thinkers.
Creativity and thinking:
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Creativity – the ability to think
about a problem or idea in new
and unusual ways and come
up with unconventional
solutions
Convergent thinkers – use
problem solving strategies
directed toward one correct
solution to a problem
Divergent thinkers – produce
many answers to the same
question (this is a
characteristic of creativity)
Most studies show that
brainstorming is the best
strategy to use when faced
with a problem.
Biases:
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Have you ever made a
biased decision? When and
why?
Confirmation Bias –
tendency to search for and
use information that
supports our
preconceptions and ignore
information that refutes our
ideas
Why do we hold on to old
beliefs?
Belief Perseverance –
tendency to hold on to a
belief after the basis for the
belief is discredited.
Bias: continued
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Belief Bias – the tendency
for our preexisting beliefs
to distort logical reasoning,
making illogical conclusions
seem valid or logical
conclusions seem invalid.
(Muslim Extremists)
Hindsight Bias – the
tendency to falsely report
after the event, that we
correctly predicted the
outcome of an event.
(elections, sports, etc.)
Overconfidence Bias:
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Overconfidence Bias
– the tendency to
underestimate the
extent to which our
judgments are
incorrect.
While reading a section
on problem solving
errors, we may believe
that we make errors
less often than most
people.
Bystander Effect:
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Do we make poor decisions based on morals,
safety, etc?
How can we know we should help with
something, but just stand and watch?
Bystander Effect – We assume that others
will help, when in fact, they are thinking the
same thing.
Let’s look at an example.
Class Discussion:
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1. What does the bystander effect say about
human nature?
2. Do you think you’d help if put in this
situation?
3. How do you think we can help people to
help others in these types of situations?
THE
END